codecombat/app/lib/world/GoalManager.coffee
2014-01-03 10:32:13 -08:00

265 lines
10 KiB
CoffeeScript

CocoClass = require 'lib/CocoClass'
utils = require 'lib/utils'
module.exports = class GoalManager extends CocoClass
# The Goal Manager is created both on the main thread and
# each time the world is generated. The one in world generation
# records which code and world related goals
# are completed or failed, and then the results are sent back
# and saved to the main thread instance.
# The main instance handles goals based on UI notifications,
# and keeps track of what the goals are at any given point.
# Goals can only have only one goal property. Otherwise who knows what will happen.
# If you want weird goals or hybrid goals, make a custom goal.
nextGoalID: 0
constructor: (@world) ->
super()
@init()
init: ->
@goals = []
@goalStates = {} # goalID -> object (complete, frameCompleted)
@userCodeMap = {} # @userCodeMap.thangID.methodName.aether.raw = codeString
@thangTeams = {}
@initThangTeams()
initThangTeams: ->
return unless @world
for thang in @world.thangs when thang.team and thang.isAttackable
continue unless thang.team
@thangTeams[thang.team] = [] unless @thangTeams[thang.team]
@thangTeams[thang.team].push(thang.id)
subscriptions:
'level-add-goals': 'onAddGoals'
'level-remove-goals': 'onRemoveGoals'
'god:new-world-created': 'onNewWorldCreated'
'level:restarted': 'onLevelRestarted'
backgroundSubscriptions:
'world:thang-died': 'onThangDied'
'world:thang-touched-goal': 'onThangTouchedGoal'
'world:thang-left-map': 'onThangLeftMap'
'world:thang-collected-item': 'onThangCollectedItem'
'world:ended': 'onWorldEnded'
onLevelRestarted: =>
@goals = []
@goalStates = {}
@userCodeMap = {}
@notifyGoalChanges()
# INTERFACE AND LIFETIME OVERVIEW
# main instance receives goal updates from the script manager
onAddGoals: (e) =>
return unless e.worldName is @world.name
goals = e.goals
@addGoal(goal) for goal in goals
onRemoveGoals: (e) =>
if e.goal in @goals
@goals.remove(e.goal)
delete @goalStates[e.goal]
# world generator gets current goals from the main instance
getGoals: -> @goals
# background instance created by world generator,
# gets these goals and code, and is told to be all ears during world gen
setGoals: (@goals) ->
setCode: (@userCodeMap) -> @updateCodeGoalStates()
worldGenerationWillBegin: -> @initGoalStates()
# World generator feeds world events to the goal manager to keep track
submitWorldGenerationEvent: (channel, event, frameNumber) ->
func = @backgroundSubscriptions[channel]
func = utils.normalizeFunc(func, @)
return unless func
func(event, frameNumber)
# after world generation, generated goal states
# are grabbed to send back to main instance
worldGenerationEnded: (finalFrame) -> @wrapUpGoalStates(finalFrame)
getGoalStates: -> @goalStates
# main instance gets them and updates their existing goal states,
# passes the word along
onNewWorldCreated: (e) =>
@updateGoalStates(e.goalStates) if e.goalStates?
updateGoalStates: (newGoalStates) ->
for goalID, goalState of newGoalStates
continue unless @goalStates[goalID]?
@goalStates[goalID] = goalState
@notifyGoalChanges()
# IMPLEMENTATION DETAILS
addGoal: (goal) ->
goal.id = @nextGoalID++ if not goal.id
return if @goalStates[goal.id]?
@goals.push(goal)
goal.isPositive = @goalIsPositive goal.id
@goalStates[goal.id] = {status: 'incomplete', keyFrame: 0}
@notifyGoalChanges()
return unless goal.notificationGoal
f = (channel) => (event) => @onNote(channel, event)
channel = goal.notificationGoal.channel
@addNewSubscription(channel, f(channel))
notifyGoalChanges: ->
overallStatus = @checkOverallStatus()
event = {goalStates: @goalStates, goals: @goals, overallStatus: overallStatus}
#console.log JSON.stringify(event), "new goal states"
Backbone.Mediator.publish('goal-manager:new-goal-states', event)
checkOverallStatus: (ignoreIncomplete=false) ->
overallStatus = null
statuses = if @goalStates then (val.status for key, val of @goalStates) else []
overallStatus = 'success' if statuses.length > 0 and _.every(statuses, (s) -> s is 'success' or (ignoreIncomplete and s is null))
overallStatus = 'failure' if statuses.length > 0 and 'failure' in statuses
overallStatus
# WORLD GOAL TRACKING
initGoalStates: ->
@goalStates = {}
return unless @goals
for goal in @goals
state = {
status: null # should eventually be either 'success', 'failure', or 'incomplete'
keyFrame: 0 # when it became a 'success' or 'failure'
}
@initGoalState(state, [goal.killThangs, goal.saveThangs], 'killed')
@initGoalState(state, [goal.getToLocations?.who, goal.keepFromLocations?.who], 'arrived')
@initGoalState(state, [goal.leaveOffSides?.who, goal.keepFromLeavingOffSides?.who], 'left')
@initGoalState(state, [goal.collectThangs?.who, goal.keepFromCollectingThangs?.who], 'collected')
@goalStates[goal.id] = state
onThangDied: (e, frameNumber) =>
for goal in @goals ? []
@checkKillThangs(goal.id, goal.killThangs, e.thang, frameNumber) if goal.killThangs?
@checkKillThangs(goal.id, goal.saveThangs, e.thang, frameNumber) if goal.saveThangs?
checkKillThangs: (goalID, targets, thang, frameNumber) =>
return unless thang.id in targets or thang.team in targets
@updateGoalState(goalID, thang.id, 'killed', frameNumber)
onThangTouchedGoal: (e, frameNumber) =>
for goal in @goals ? []
@checkArrived(goal.id, goal.getToLocations.who, goal.getToLocations.targets, e.actor.id, e.touched.id, frameNumber) if goal.getToLocations?
@checkArrived(goal.id, goal.keepFromLocations.who, goal.keepFromLocations.targets, e.actor.id, e.touched.id, frameNumber) if goal.keepFromLocations?
checkArrived: (goalID, who, targets, thangID, touchedID, frameNumber) =>
return unless touchedID in targets
return unless thangID in who
@updateGoalState(goalID, thangID, 'arrived', frameNumber)
onThangLeftMap: (e, frameNumber) =>
for goal in @goals ? []
@checkLeft(goal.id, goal.leaveOffSides.who, goal.leaveOffSides.sides, e.thang.id, e.side, frameNumber) if goal.leaveOffSides?
@checkLeft(goal.id, goal.keepFromLeavingOffSides.who, goal.keepFromLeavingOffSides.sides, e.thang.id, e.side, frameNumber) if goal.keepFromLeavingOffSides?
checkLeft: (goalID, who, sides, thangID, side, frameNumber) =>
return if sides and side and not (side in sides)
return unless thangID in who
@updateGoalState(goalID, thangID, 'left', frameNumber)
onThangCollectedItem: (e, frameNumber) =>
for goal in @goals ? []
@checkCollected(goal.id, goal.collectThangs.who, goal.collectThangs.targets, e.actor.id, e.item.id, frameNumber) if goal.collectThangs?
@checkCollected(goal.id, goal.keepFromCollectingThangs.who, goal.keepFromCollectingThangs.targets, e.actor.id, e.item.id, frameNumber) if goal.keepFromCollectingThangs?
checkCollected: (goalID, who, targets, thangID, itemID, frameNumber) =>
return unless itemID in targets
return unless thangID in who
@updateGoalState(goalID, thangID, 'collected', frameNumber)
wrapUpGoalStates: (finalFrame) ->
for goalID, state of @goalStates
if state.status is null
if @goalIsPositive(goalID)
state.status = 'incomplete'
else
state.status = 'success'
state.keyFrame = 'end' # special case for objective UI to handle
# UI EVENT GOAL TRACKING
onNote: (channel, e) ->
# TODO for UI event related goals
# HELPER FUNCTIONS
# It's a pretty similar pattern for each of the above goals.
# Once you determine a thang has done the thing, you mark it done in the progress object.
initGoalState: (state, whos, progressObjectName) ->
# 'whos' is an array of goal 'who' values.
# This inits the progress object for the goal tracking.
arrays = (prop for prop in whos when prop?.length)
return unless arrays.length
state[progressObjectName] = {}
for array in arrays
for thang in array
if @thangTeams[thang]?
for t in @thangTeams[thang]
state[progressObjectName][t] = false
else
state[progressObjectName][thang] = false
updateGoalState: (goalID, thangID, progressObjectName, frameNumber) ->
# A thang has done something related to the goal!
# Mark it down and update the goal state.
goal = _.find @goals, {id: goalID}
state = @goalStates[goalID]
stateThangs = state[progressObjectName]
stateThangs[thangID] = true
success = @goalIsPositive goalID
if success
numNeeded = Math.max((goal.howMany ? 1), _.size stateThangs)
else
# saveThangs: by default we would want to save all the Thangs, which means that we would want none of them to be "done"
numNeeded = _.size(stateThangs) - Math.min((goal.howMany ? 1), _.size stateThangs) + 1
numDone = _.filter(stateThangs).length
#console.log "needed", numNeeded, "done", numDone, "of total", _.size(stateThangs), "with how many", goal.howMany
return unless numDone >= numNeeded
return if state.status and not success # already failed it; don't wipe keyframe
state.status = if success then "success" else "failure"
state.keyFrame = frameNumber
#console.log goalID, "became", success, "on frame", frameNumber, "with overallStatus", @checkOverallStatus true
if overallStatus = @checkOverallStatus true
matchedGoals = (_.find(@goals, {id: goalID}) for goalID, goalState of @goalStates when goalState.status is overallStatus)
mostEagerGoal = _.min matchedGoals, 'worldEndsAfter'
victory = overallStatus is "success"
tentative = overallStatus is "success"
@world.endWorld victory, mostEagerGoal.worldEndsAfter, tentative if mostEagerGoal isnt Infinity
goalIsPositive: (goalID) ->
# Positive goals are completed when all conditions are true (kill all these thangs)
# Negative goals fail when any are true (keep all these thangs from being killed)
goal = _.find(@goals, {id: goalID}) ? {}
return false for prop of goal when @positiveGoalMap[prop] is 0
true
positiveGoalMap:
killThangs: 1
saveThangs: 0
getToLocations: 1
keepFromLocations: 0
leaveOffSides: 1
keepFromLeavingOffSides: 0
collectThangs: 1
keepFromCollectingThangs: 0
updateCodeGoalStates: ->
# TODO
# teardown
destroy: ->
super()